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E-raamat: Drone Technology in Architecture, Engineering and Construction: A Strategic Guide to Unmanned Aerial Vehicle Operation and Implementation

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  • Formaat: EPUB+DRM
  • Ilmumisaeg: 08-Jan-2021
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781119545903
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Drone Technology in Architecture, Engineering and Construction: A Strategic Guide to Unmanned Aerial Vehicle Operation and ImplementationSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 08-Jan-2021
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781119545903
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"AEC firms of all sizes are integrating drone technology into their existing design and construction workflows. Drone footage is being used for site analysis, photo-matching of conceptual designs and 3D models, in-house site surveying, inspection, presentations, and project stakeholder discussions. During all stages of the construction process, drones are quickly redefining the way that data is collected for projects. From capturing building models, to generating terrain data or inspecting structures, drones can increase a firm's competitive edge and profitability. Drones are cost-effective and greatly reduce safety risks as operators are able to reach previously inaccessible areas, while capturing a large amount of data in a short amount of time"--

A start-to-finish roadmap on incorporating drone technology into your AEC firm workflow 

Drone Technology in Architecture, Engineering and Construction: A Strategic Guide to Unmanned Aerial Vehicle Operation and Implementation is the only process-driven, step-by-step handbook to implement drone technology in AEC workflows. It provides a comprehensive and practical roadmap for architecture, engineering, and construction firms to incorporate drones into their design and construction processes. 

The book offers extensive information on drone data processing, and includes guidance on how to acquire, manipulate and use the various data types produced from drone flights. The creation of three-dimensional data and visualizations are covered in-depth. Drone Technology reviews how to select and fly drones based on data needs and initial costs, and how to collect and maintain required flight logs, licenses, and permits.  

Drone Technology uses several real-world project examples that demonstrate and explain how drones can be used to collect: 

·         Full-color orthorectified imagery 

·         Accurate 3D point cloud and mesh models 

·         Topographic contours 

·         Digital Elevation Models (DEMs) 

The project examples also describe how these datasets can be integrated with 3D models of proposed conditions, photos, and other project datasets. 

Drone Technology in Architecture, Engineering and Construction is an essential guide for a wide variety of professionals, from civil engineers to landscape architects. It provides information on professional use of drones for those just considering the technology, to those already flying drones professionally. It is an invaluable guide for anyone working in the design or construction of buildings and landscapes.  

Acknowledgments vii
Part 1 Introduction to Drone Practice
1(40)
Chapter 1 How to Use This Book
3(8)
Drones for Architecture, Engineering, and Construction (AEC)
3(1)
The Method Behind This Book
4(1)
Who Can Use This Book?
4(1)
The Book Road Map
5(2)
About the Authors
7(1)
Daniel Tal, ASLA, RLA
7(1)
Jon Altschuld, ASLA, RLA
8(1)
Important Contributor Justin Clark
9(2)
Chapter 2 A Paradigm Shift in Viewing the World
11(12)
The Breadth of Drone Applications Is Just Beginning to Be Discovered
12(1)
Basic Drone Use
12(1)
Current Breadth of Drone Use
13(3)
The Future Breadth of Drone Use
16(1)
The Risks of Drone Technology
17(4)
Why Use Drones?
21(1)
The Bottom Line on Drones
22(1)
Chapter 3 Drone Data Visualization as a Full Cycle Tool
23(18)
Advantages
23(2)
Project Cycles
25(1)
Written Proposal
26(1)
Proposal Interview
26(1)
Project Start Up
27(1)
Concept Design and Design Development
27(2)
Construction Administration
29(1)
Post-Construction
29(1)
Visual Communication
30(1)
Defining Drone Data and Visualization
30(1)
2D Concept Overlay
31(1)
3D Concept Model Overlay
31(1)
3D Mesh
31(2)
Classified Point Clouds
33(1)
Construction Analysis over the Internet
33(1)
Contour CAD Line Work
34(1)
Drone Photography
34(1)
Drone Video Footage
34(1)
Digital Elevation Model (DEM)
35(1)
Plant Health
35(1)
High-Resolution Orthorectified Image
35(1)
Site Quantities and Takeoff s
36(2)
Thermal Maps
38(1)
Time-Based Site Comparisons
38(3)
Part 2 Getting off the Ground
41(56)
Chapter 4 Buy In
43(15)
Return on Investment (ROI)
43(1)
Start-Up Cost Estimate
44(3)
Annual Expenditures
47(1)
Rate of Return (ROR)
48(1)
Commodity
48(1)
Include in Proposals
49(1)
Project Collaboration and Deferred Costs/Cost Savings
50(1)
Intangible Values
51(1)
Value Added Services
52(4)
Training Costs
56(1)
Remote 107 License
56(1)
Software and Photogrammetry Training Costs
57(1)
Permissions Costs
57(1)
Chapter 5 Getting Started
58(16)
AEC Drone Standard Features
58(2)
Flying Skills
60(1)
High Quality of Data
61(1)
Power and Flight Time
61(1)
Flight Controller Automations
61(1)
Third Party Apps
62(1)
Support and Troubleshooting
63(1)
Drone Packages
63(1)
Applications and Software
64(1)
Device Apps
64(1)
Categories
64(1)
Flight Conditions
64(2)
Video and Photo Recording
66(2)
Photogrammetry
68(3)
Insurance
71(1)
Online Portals
71(1)
Desktop Software
71(1)
Photogrammetry
71(1)
Photo Matching and Editing
71(1)
Multimedia and Video Editing
72(1)
Computer Hardware
72(1)
CPU
73(1)
GPU
73(1)
RAM
73(1)
Storage Memory
73(1)
Chapter 6 Documentation, Permissions, and License
74(12)
Professional Etiquette for Professional Practice
74(1)
The Legal Rules
74(2)
Part 107
76(1)
Permissions - LAANC
77(3)
Permissions - State, Agency, County, and City Regulations
80(1)
Permissions - DJI FlySafe and Geo Zones
80(1)
Insurance
80(2)
Documentation
82(4)
Chapter 7 Best Practices for Flying Drones
86(11)
The Flying Mindset
86(1)
Drone Flying Apps
87(1)
Simulator Mode
88(1)
Flight Operations
89(1)
Takeoff
90(1)
During Flight
91(1)
Flight Area Awareness
91(1)
Maintaining Visual Line of Site (VLOS)
92(2)
Emergency Operations
94(1)
Landing and Post-flight
95(1)
Automated Flying
95(1)
Pilot Control
95(1)
Manual Intervention
95(1)
Pre-flight Planning for Automated Flights
96(1)
Part 3 Acquiring and Working with Drone Data
97(68)
Chapter 8 Imagery and Videos
99(18)
Photo and Video Quality
99(1)
Using DJI Standard Apps
99(2)
Image Geotag
101(1)
Litchi Flight Planning Software
101(2)
Litchi Smart Device App
103(1)
Litchi Desktop Web Portal
104(1)
Virtual Litchi Mission
104(2)
Working with Drone Photos
106(1)
Annotated Images
106(1)
Photo Matches
107(1)
Hand Sketch Photo Matches
107(1)
Photoshop Photo Matches
107(4)
3D Model Photo Matches
111(3)
Working with Drone Videos
114(2)
Pix4D (and Other) Animations
116(1)
Chapter 9 Photogrammetry
117(30)
What Is Photogrammetry?
117(1)
Drones and Photogrammetry
118(1)
Photogrammetry Accuracy and Precision
119(4)
Ground Control Points
123(1)
Collecting Data
124(7)
RTK Drones, Ground Control Pads
131(1)
Processing the Data
132(2)
Processing Steps
134(5)
Photogrammetry Project Comparisons
139(1)
Project #1 Rural Ranch
139(4)
Project #2 US-50 Little Blue Canyon
143(3)
Photogrammetry Hardware
146(1)
Photogrammetry Software
146(1)
Chapter 10 Working with 3D Models
147(12)
Point Cloud versus 3D Mesh
147(1)
Working with Point Clouds and 3D Meshes
148(2)
Viewing and Sharing Online
150(2)
Third-Party Sites
152(1)
Application
153(1)
Viewing and Processing in the Cloud
153(1)
Photogrammetry Software
153(1)
Construction Management Viewing and Sharing Software
153(1)
Working with and Manipulating the 3D Mesh
154(1)
File Format
154(1)
Point Cloud to Mesh
155(1)
Mesh Decimation
155(1)
Mesh Manipulation and Proposed Features
156(3)
Chapter 11 The Future of UAVs
159(6)
Final Word and Looking Ahead
163(2)
Index 165
Daniel Tal, ASLA is a registered landscape architect with over 22 years of experience. Daniel is the visualization and drone manager for DHM Design. He is the author of SketchUp for Site Design, Second Edition and Rendering in SketchUp. Daniel designs and operates 3D modeling software apps including www.suplacemaker.com and www.SketchUrbanPaint.com. He has a tutorial website at www.danieltal.com. Daniel speaks nationally on technology, provides lectures to universities and publishes blogs and articles.

Jon Altschuld, RLA is a licensed landscape architect with over 12 years' experience and is the founder and principal at Chinook Landscape Architecture (www.chinookLA.com) in Denver, CO. He is also an FAA registered remote pilot, and a board member of the Professional TrailBuilders Association (PTBA). In his career he has focused on using emerging technologies such as drone data collection and 3D visualization to approach complex design issues, often in environmentally sensitive areas. He has worked on projects ranging from major transportation corridors, to non-motorized trails master plans, to floodplain and habitat restorations. Jon also teaches workshops and gives professional training on SketchUp, Vue, CAD, Lumion, and Adobe Graphics programs within the AEC community.
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